CN115809844A - Storage checking method, device and system and computing equipment - Google Patents

Abstract

The embodiment of the invention discloses a storage checking method, a storage checking device, a storage checking system and computing equipment, wherein the method comprises the following steps: receiving a delivery end sending storage request, and inquiring a list of to-be-stored orders corresponding to the delivery end; determining the distance between the delivery destination of each order to be stored and the target intelligent cabinet according to the delivery destination position of each order to be stored in the list of the orders to be stored and the position of the target intelligent cabinet; carrying out distance check processing on each order to be stored in the order to be stored list; and sending an order list to be displayed to the distribution end according to the distance checking result. The distance of the order to be stored is checked, and the order list is displayed to the delivery personnel according to the distance checking result, so that the delivery personnel can more quickly and accurately search the order to be stored in the target intelligent cabinet, the searching time cost of the delivery personnel is reduced, the problem that the delivery personnel store and select wrong orders in the actual delivery process can be avoided to a certain extent, and the probability of error storage is reduced.

Description

Storage checking method, device and system and computing equipment

Technical Field

The embodiment of the invention relates to the technical field of intelligent distribution, in particular to a storage checking method, a storage checking device, a storage checking system, a computing device and a computer storage medium.

Background

Along with the development of intelligence delivery technique, the application of contactless intelligent cabinet is more and more common, and the knight only needs to sweep the sign indicating number and put into intelligent cabinet with the food and just can send next order, has promoted the food delivery efficiency of knight, also makes client get meal convenient safety more.

In an actual distribution scene, many orders are simultaneously distributed by a rider, when the rider arrives at an intelligent cabinet to store food, the rider needs to search for the orders needing to be stored in a target intelligent cabinet from messy orders to be stored, the query time cost is high, and even the orders are mistakenly selected under some conditions. The prior art lacks an effective technical means to avoid the above problems.

Disclosure of Invention

In view of the above, embodiments of the present invention are proposed in order to provide a storage verification method, apparatus, system, computing device, and computer storage medium that overcome the above problems or at least partially solve the above problems.

According to an aspect of an embodiment of the present invention, a storage verification method is provided, including:

receiving a delivery end sending storage request, and inquiring a list of to-be-stored orders corresponding to the delivery end;

determining the distance between the delivery destination of each order to be stored and the target intelligent cabinet according to the delivery destination position of each order to be stored in the list of the orders to be stored and the position of the target intelligent cabinet;

carrying out distance check processing on each order to be stored in the order list to be stored;

and sending an order list to be displayed to the distribution end according to the distance checking result.

Optionally, the performing distance check processing on each to-be-stored order in the to-be-stored order list further includes:

determining the type of the target intelligent cabinet;

and according to the type of the target intelligent cabinet, performing distance verification processing on each order to be stored in the order to be stored list.

Optionally, the performing, according to the type of the target intelligent cabinet, distance checking on each to-be-stored order in the to-be-stored order list further includes:

inquiring at least one level of distance checking threshold value corresponding to the type of the target intelligent cabinet according to the type of the target intelligent cabinet; at least one level of distance checking threshold values corresponding to different types of target intelligent cabinets are different;

and comparing the distance between the delivery destination of each order to be stored and the target intelligent cabinet with the at least one-stage distance check threshold value to obtain a distance check result.

Optionally, the performing distance check processing on each to-be-stored order in the to-be-stored order list further includes:

identifying a delivery scene;

and according to the distribution scene, carrying out distance check processing on each order to be stored in the order to be stored list.

Optionally, the performing, according to the distribution scenario, distance checking on each to-be-stored order in the to-be-stored order list further includes:

inquiring at least one level of distance checking threshold corresponding to the distribution scene according to the distribution scene; at least one level of distance checking threshold values corresponding to different distribution scenes are different;

and comparing the distance between the delivery destination of each order to be stored and the target intelligent cabinet with the at least one-stage distance verification threshold value to obtain a distance verification result.

Optionally, the receiving and sending a storage request by the allocating end specifically includes: receiving a storage request sent by a distribution end aiming at the triggering operation of a target intelligent cabinet;

the method further comprises the following steps: and acquiring the position of the target intelligent cabinet.

Optionally, the performing distance check processing on each to-be-stored order in the to-be-stored order list further includes:

and identifying the first type of orders to be prompted by the distance in the order list of the to-be-stored items according to the distance between the delivery destination of each to-be-stored order and the target intelligent cabinet.

Optionally, the performing distance check processing on each to-be-stored order in the to-be-stored order list further includes:

identifying second-class orders to be intercepted in the order list to be stored according to the distance between the delivery destination of each order to be stored and a target intelligent cabinet;

and storing and intercepting the second type of orders.

Optionally, the storing and intercepting the second type of order further includes:

and removing the second type of order from the to-be-stored order list to obtain the to-be-displayed order list.

Optionally, the storing and intercepting the second type of order further includes:

and setting the storage control of the second type of order as unresponsive in the list to be displayed.

Optionally, after the distance check processing is performed on each to-be-stored order in the to-be-stored order list, the method further includes:

and determining the display sequence of each order to be displayed in the order list to be displayed according to the distance between the delivery destination of each order to be stored and the target intelligent cabinet.

Optionally, after the sending the list of the orders to be displayed to the distribution end according to the distance checking result, the method further includes:

receiving a cabinet opening request which is sent by a distribution end and aims at any target order in an order list to be displayed;

judging whether the target order is the first type order or not;

and if so, sending distance checking prompt information to the distribution end.

Optionally, the method further comprises: and if the target order is judged not to be the first type order or the second type order, triggering to send a cabinet opening instruction to the target intelligent cabinet according to the cabinet opening request.

Optionally, in a case that the target order is determined to be a first type of order, the method further includes:

acquiring first address information corresponding to a target intelligent cabinet and second address information corresponding to the target order, and checking text similarity of the first address information and the second address information;

the sending of the distance checking prompt information to the distribution end specifically includes: and sending distance checking prompt information to the distribution end according to the checking result of the text similarity.

Optionally, the sending distance verification prompt information to the delivery end according to the verification result of the text similarity further includes:

if the verification result of the text similarity is that verification is passed, sending distance verification prompt information containing the order number of the target order to the distribution end;

and/or if the verification result of the text similarity is that the verification is not passed, sending distance verification prompt information containing the first address information to the distribution end.

Optionally, after sending the distance verification prompt message to the distribution end, the method further includes:

receiving a confirmation opening request aiming at a target order sent by a distribution end;

and triggering to send a cabinet opening instruction to the target intelligent cabinet according to the cabinet opening confirmation request.

Optionally, after sending the distance verification prompt message to the distribution end, the method further includes:

receiving a confirmation opening request which is sent by a distribution end and carries an input order number;

comparing the input order number with the order number of the target order, and if the input order number is consistent with the order number of the target order, triggering to send a cabinet opening instruction to the target intelligent cabinet; and if not, sending order error prompt information to the distribution end.

According to another aspect of the embodiments of the present invention, there is provided a storage verification method, including:

monitoring storage operation, sending a storage request to a server, allowing the server to inquire a to-be-stored order list corresponding to a distribution end, determining a distance between a distribution destination of each to-be-stored order and a target intelligent cabinet according to a distribution destination position of each to-be-stored order in the to-be-stored order list and a position of the target intelligent cabinet, and performing distance verification processing on each to-be-stored order in the to-be-stored order list to obtain an to-be-displayed order list;

and receiving and displaying the order list to be displayed returned by the server.

Optionally, after receiving and displaying the to-be-displayed order list returned by the server, the method further includes:

and monitoring the opening operation of any target order in the order list to be displayed, and sending a request for opening the cabinet to the server.

Optionally, if the target order is a first type of order, the method further includes:

and receiving and displaying the distance checking prompt information returned by the server.

Optionally, the receiving and displaying the distance checking prompt information returned by the server further includes:

and receiving and displaying distance checking prompt information which is returned by the server and contains the order number of the target order and/or the first address information.

Optionally, after receiving and displaying the distance checking prompt information returned by the server, the method further includes:

and monitoring the confirmed cabinet opening operation aiming at the target order, and sending a confirmed cabinet opening request to the server side.

Optionally, after receiving and displaying the distance checking prompt information returned by the server, the method further includes:

acquiring an input order number, and sending a confirmation cabinet opening request carrying the input order number to the server so that the server can compare the input order number with the order number of the target order;

and receiving order error prompt information fed back by the server under the condition that the input order number is not consistent with the order number of the target order through comparison.

Optionally, the displaying the to-be-displayed order list returned by the server further includes:

and displaying the list of the orders to be displayed according to a display sequence determined by the distance between the delivery destination of each order to be displayed and the target intelligent cabinet.

Optionally, the displaying the to-be-displayed order list returned by the server further includes:

and displaying the first type of orders and/or the second type of orders to be intercepted, which are subjected to distance prompt, in a partitioning manner, wherein the first type of orders and/or the second type of orders are obtained according to the comparison result of the distance between the delivery destination of each order to be stored and the target intelligent cabinet and at least one stage of distance check threshold value.

Optionally, the displaying the to-be-displayed order list returned by the server further includes: and setting the storage control of the second type of order as unresponsive.

According to another aspect of the embodiments of the present invention, there is provided a storage verification method, including:

the method comprises the steps that after a distribution end monitors storage operation, a storage request is sent to a server end;

the server side inquires a to-be-stored order list corresponding to the distribution side according to the storage request;

the server side determines the distance between the delivery destination of each order to be stored and the target intelligent cabinet according to the delivery destination position of each order to be stored in the order to be stored list and the position of the target intelligent cabinet;

the server side carries out distance check processing on each order to be stored in the order to be stored list;

the server side sends an order list to be displayed to the distribution side according to the distance checking result;

and the distribution terminal receives and displays the list of the orders to be displayed.

According to an aspect of an embodiment of the present invention, there is provided a storage verification apparatus, including:

the query module is used for receiving a delivery end sending storage request and querying a to-be-stored order list corresponding to the delivery end;

the distance determining module is used for determining the distance between the delivery destination of each order to be stored and the target intelligent cabinet according to the delivery destination position of each order to be stored in the order to be stored list and the position of the target intelligent cabinet;

the distance checking module is used for carrying out distance checking processing on each order to be stored in the order to be stored list;

and the sending module is used for sending the list of the orders to be displayed to the distribution end according to the distance checking result.

Optionally, the distance checking module is further configured to: determining the type of the target intelligent cabinet; and according to the type of the target intelligent cabinet, performing distance verification processing on each order to be stored in the order to be stored list.

Optionally, the distance checking module is further configured to:

inquiring at least one level of distance checking threshold value corresponding to the type of the target intelligent cabinet according to the type of the target intelligent cabinet; at least one level of distance checking threshold values corresponding to different types of target intelligent cabinets are different;

and comparing the distance between the delivery destination of each order to be stored and the target intelligent cabinet with the at least one-stage distance check threshold value to obtain a distance check result.

Optionally, the distance checking module is further configured to: identifying a delivery scene; and according to the distribution scene, carrying out distance verification processing on each order to be stored in the order to be stored list.

Optionally, the distance checking module is further configured to:

inquiring at least one level of distance checking threshold corresponding to the distribution scene according to the distribution scene; at least one level of distance checking threshold values corresponding to different distribution scenes are different;

and comparing the distance between the delivery destination of each order to be stored and the target intelligent cabinet with the at least one-stage distance verification threshold value to obtain a distance verification result.

Optionally, the query module is further configured to: receiving a storage request sent by a distribution end aiming at the triggering operation of a target intelligent cabinet; and acquiring the position of the target intelligent cabinet.

Optionally, the distance checking module is further configured to: and identifying the first type of orders to be prompted by the distance in the order list of the to-be-stored items according to the distance between the delivery destination of each to-be-stored order and the target intelligent cabinet.

Optionally, the distance checking module is further configured to:

identifying second-class orders to be intercepted in the order list to be stored according to the distance between the delivery destination of each order to be stored and a target intelligent cabinet;

and storing and intercepting the second type of orders.

Optionally, the distance checking module is further configured to: and removing the second type of orders from the to-be-stored order list to obtain the to-be-displayed order list.

Optionally, the distance checking module is further configured to: and setting the storage control of the second type of order as unresponsive in the list to be displayed.

Optionally, the distance checking module is further configured to: and determining the display sequence of each order to be displayed in the order list to be displayed according to the distance between the delivery destination of each order to be stored and the target intelligent cabinet.

Optionally, the apparatus further comprises: the system comprises a cabinet opening processing module, a distribution end and a display module, wherein the cabinet opening processing module is used for receiving a cabinet opening request which is sent by the distribution end and aims at any target order in an order list to be displayed; judging whether the target order is the first type order or not; and if so, sending distance checking prompt information to the distribution end.

Optionally, the cabinet opening processing module is further configured to: and if the target order is judged not to be the first type order or the second type order, triggering to send a cabinet opening instruction to the target intelligent cabinet according to the cabinet opening request.

Optionally, the cabinet-opening processing module is further configured to:

acquiring first address information corresponding to a target intelligent cabinet and second address information corresponding to the target order, and checking text similarity of the first address information and the second address information;

and sending distance checking prompt information to the distribution end according to the checking result of the text similarity.

Optionally, the cabinet opening processing module is further configured to:

if the verification result of the text similarity is that verification is passed, sending distance verification prompt information containing the order number of the target order to the distribution end;

and/or if the verification result of the text similarity is that the verification is not passed, sending distance verification prompt information containing the first address information to the distribution end.

Optionally, the cabinet opening processing module is further configured to:

receiving a confirmation opening request aiming at a target order sent by a distribution end;

and triggering to send a cabinet opening instruction to the target intelligent cabinet according to the cabinet opening confirmation request.

Optionally, the cabinet opening processing module is further configured to:

receiving a confirmation opening request which is sent by a distribution end and carries an input order number;

comparing the input order number with the order number of the target order, and if the input order number is consistent with the order number of the target order, triggering to send a cabinet opening instruction to the target intelligent cabinet; and if not, sending order error prompt information to the distribution end.

According to another aspect of the embodiments of the present invention, there is provided a storage verification apparatus, including:

the monitoring module is used for monitoring storage operation, sending a storage request to a server, allowing the server to inquire a to-be-stored order list corresponding to a distribution end, determining a distance between a distribution destination of each to-be-stored order and a target intelligent cabinet according to a distribution destination position of each to-be-stored order in the to-be-stored order list and a position of the target intelligent cabinet, and performing distance verification processing on each to-be-stored order in the to-be-stored order list to obtain an to-be-displayed order list;

and the order display module is used for receiving and displaying the list of the orders to be displayed returned by the server.

Optionally, the monitoring module is further configured to: and monitoring the opening operation aiming at any target order in the order list to be displayed, and sending a request for opening the cabinet to the server side.

Optionally, the apparatus further comprises: and the prompting module is used for receiving and displaying the distance checking prompting information returned by the server under the condition that the target order is the first type of order.

Optionally, the prompt module is further configured to: and receiving and displaying distance checking prompt information which is returned by the server and contains the order number of the target order and/or the first address information.

Optionally, the monitoring module is further configured to: and monitoring the operation of confirming the cabinet opening of the target order, and sending a request of confirming the cabinet opening to the server side.

Optionally, the monitoring module is further configured to: acquiring an input order number, and sending a confirmation cabinet opening request carrying the input order number to the server so that the server can compare the input order number with the order number of the target order;

the prompt module is further configured to: and receiving order error prompt information fed back by the server under the condition that the input order number is not consistent with the order number of the target order through comparison.

Optionally, the order display module is further configured to: and displaying the list of the orders to be displayed according to a display sequence determined by the distance between the delivery destination of each order to be displayed and the target intelligent cabinet.

Optionally, the order display module is further configured to: and displaying the first type of orders and/or the second type of orders to be intercepted, which are to be prompted by the distance, in a partitioned manner, wherein the first type of orders and/or the second type of orders are obtained according to the comparison result of the distance between the delivery destination of each order to be stored and the target intelligent cabinet and at least one stage of distance checking threshold value.

Optionally, the order display module is further configured to: and setting the storage control of the second type of order as unresponsive.

According to another aspect of the embodiments of the present invention, there is provided a storage verification system, including:

the distribution end is used for monitoring storage operation and sending a storage request to the server end; receiving and displaying an order list to be displayed returned by the server;

the server is used for receiving the delivery end sending storage request and inquiring a to-be-stored order list corresponding to the delivery end; determining the distance between the delivery destination of each order to be stored and the target intelligent cabinet according to the delivery destination position of each order to be stored in the list of the orders to be stored and the position of the target intelligent cabinet; carrying out distance check processing on each order to be stored in the order to be stored list; and sending an order list to be displayed to the distribution end according to the distance checking result.

According to still another aspect of an embodiment of the present invention, there is provided a computing device including: the system comprises a processor, a memory, a communication interface and a communication bus, wherein the processor, the memory and the communication interface complete mutual communication through the communication bus;

the memory is used for storing at least one executable instruction, and the executable instruction enables the processor to execute the operation corresponding to the storage verification method.

According to another aspect of the embodiments of the present invention, a computer storage medium is provided, where at least one executable instruction is stored in the storage medium, and the executable instruction causes a processor to execute an operation corresponding to the storage verification method.

According to the storage checking method, the storage checking device and the storage checking system, after the distribution end sends the storage request, the to-be-stored order list corresponding to the distribution end is inquired, the distance between the distribution destination of each to-be-stored order and the target intelligent cabinet is determined, then distance checking processing is carried out on each to-be-stored order of the to-be-stored order list, and the to-be-displayed order list is sent to the distribution end according to the distance checking result. By utilizing the embodiment of the invention, the list of the orders to be displayed provided for the distribution terminal is related to the distance check result, so that the distribution personnel can more quickly and accurately search the orders to be stored in the target intelligent cabinet, the search time cost of the distribution personnel is reduced, the problem that the distribution personnel stores and selects wrong orders in the actual distribution process can be avoided to a certain extent, and the probability of errors in storing the orders is reduced.

The foregoing description is only an overview of the technical solutions of the embodiments of the present invention, and the embodiments of the present invention can be implemented according to the content of the description in order to make the technical means of the embodiments of the present invention more clearly understood, and the detailed description of the embodiments of the present invention is provided below in order to make the foregoing and other objects, features, and advantages of the embodiments of the present invention more clearly understandable.

Drawings

Various additional advantages and benefits will become apparent to those of ordinary skill in the art upon reading the following detailed description of the preferred embodiments. The drawings are only for purposes of illustrating the preferred embodiments and are not to be construed as limiting the embodiments of the invention. Also, like reference numerals are used to refer to like parts throughout the drawings. In the drawings:

FIG. 1 shows a flow diagram of a storage verification method according to one embodiment of the invention;

FIG. 2 illustrates a flow diagram of a method for inventory verification according to another embodiment of the invention;

FIG. 3 illustrates a flow diagram of a method for inventory verification according to yet another embodiment of the invention;

FIG. 4 is an interface diagram of a save page according to an embodiment of the invention;

FIG. 5 illustrates a flow diagram of a storage verification method according to yet another embodiment of the invention;

FIG. 6 is a schematic structural diagram of a storage verification device according to an embodiment of the invention;

FIG. 7 is a schematic structural diagram of a storage verification apparatus according to another embodiment of the present invention;

FIG. 8 is a block diagram of a storage verification system according to an embodiment of the invention;

FIG. 9 shows a schematic structural diagram of a computing device according to an embodiment of the invention.

Detailed Description

Exemplary embodiments of the present invention will be described in more detail below with reference to the accompanying drawings. While exemplary embodiments of the invention are shown in the drawings, it should be understood that the invention can be embodied in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art.

In order to solve the above problems in the prior art, an embodiment of the present invention provides a storage checking method, which performs distance checking on an order to be stored of a delivery person (such as a knight or a courier) when the delivery person arrives at a target intelligent cabinet and initiates a storage request through a code scanning or other methods, and displays an order list to the delivery person according to a distance checking result, so that the delivery person can more quickly and accurately search the order to be stored in the target intelligent cabinet, thereby reducing the time cost for searching of the delivery person, avoiding the problem that the delivery person selects an order in a wrong storage manner in an actual delivery process to a certain extent, and reducing the probability of errors in storage. The following embodiments of the present invention take knight meal delivery as an example to describe the technical scheme of the present invention in detail. It should be understood that the technical solution of the present invention is also applicable to other delivery scenarios, such as courier storage, etc.

Fig. 1 shows a flow chart of a storage verification method according to an embodiment of the present invention, and as shown in fig. 1, the method includes the following steps:

step 101, receiving a delivery end sending storage request, and querying a to-be-stored order list corresponding to the delivery end.

In the embodiment of the present invention, the delivery side is a client side used by a delivery person, and may specifically be a storage application program, a storage applet, a service number for storage, a public number, or the like, which is not limited in this respect.

After a knight arrives at the intelligent cabinet site, the starting and distributing terminal initiates a storage request, and specifically, the starting and distributing terminal executes a triggering operation aiming at a target intelligent cabinet. In an alternative implementation scenario, the rider may trigger a save request by a code-scanning operation. And after receiving the storage request, inquiring a to-be-stored order list corresponding to the distribution terminal, wherein the to-be-stored order list is an order list which is distributed by the knight in the current state.

And step 102, determining the distance between the delivery destination of each to-be-stored order and the target intelligent cabinet according to the delivery destination position of each to-be-stored order in the to-be-stored order list and the position of the target intelligent cabinet.

Optionally, the storage request sent by the delivery end carries the device identifier of the target intelligent cabinet; or after the distribution end sends the storage request, the equipment identifier of the target intelligent cabinet is sent again; and then or inquiring the equipment identifier of the target intelligent cabinet according to the storage request. And after the equipment identification of the target intelligent cabinet is determined, acquiring the position of the target intelligent cabinet according to the equipment identification of the target intelligent cabinet. Optionally, the background system stores a correspondence between the device identifier of the target intelligent cabinet and the position of the target intelligent cabinet.

Further, a delivery destination position of each to-be-stored order in the to-be-stored order list is obtained, and the delivery destination position is a position of a delivery destination specified by an order user of the to-be-stored order when placing an order.

And further determining the distance between the delivery destination of each to-be-stored order and the target intelligent cabinet.

And 103, performing distance check processing on each to-be-stored order in the to-be-stored order list.

In an optional implementation manner, at least one level of distance check threshold is preset, and according to a comparison result between a distance between a delivery destination of each to-be-stored order and the target intelligent cabinet and the at least one level of distance check threshold, identification and classification of distance dimensions are performed on each to-be-stored order. In one particular example, the orders to be held are categorized by distance check as weakly blocked orders (i.e., orders of the first type), strongly blocked orders (i.e., orders of the second type), and non-blocked orders. The distance between the strongly intercepted order and the target intelligent cabinet is far than that between the weakly intercepted order and the target intelligent cabinet, and the distance between the weakly intercepted order and the target intelligent cabinet is far than that between the weakly intercepted order and the target intelligent cabinet.

Taking setting of a secondary distance check threshold as an example, setting distance check thresholds of 300 meters and 100 meters respectively, identifying an order to be stored, which is spaced from a target intelligent cabinet by more than 300 meters, as a strong interception order, identifying an order to be stored, which is spaced from the target intelligent cabinet by more than 100 meters and is less than or equal to 300 meters, as a weak interception order, and identifying an order to be stored, which is spaced from the target intelligent cabinet by less than or equal to 100 meters, as a non-interception order through distance check.

And 104, sending an order list to be displayed to a distribution end according to the distance checking result.

Different from the prior art, the embodiment of the invention does not directly send the to-be-stored order list corresponding to the distribution terminal, but sends the distance-checked to-be-displayed order list to the distribution terminal.

Optionally, for the strong interception order, storage interception processing can be directly performed; distance prompt can be carried out on the distribution personnel aiming at the weak interception order; and preferentially displaying the order to be displayed in the order list to be displayed aiming at the order not to be intercepted. That is, after the distance verification, part of orders are intercepted by the stored parts and/or subjected to distance prompt compared with the to-be-stored order list in the to-be-displayed order list, and/or the order display sequence is optimized, and the orders are preferentially displayed without being intercepted.

In an actual delivery scenario, the number of orders delivered by a knight at the same time is often large, especially in an office building or an apartment building scenario, the delivery destination positions of the orders are concentrated, for example, assuming that the to-be-stored order list of the knight includes order 1 (corresponding to meal 1) and order 2 (corresponding to meal 2), and the delivery destination positions of order 1 and order 2 are seat a and seat B of a certain building, respectively. When a knight arrives at the intelligent cabinet site of a building seat A, a distribution terminal is started to scan codes and call out a meal storage page containing an order list to be stored, and the correct operation flow is as follows: the knight selects order 1 in the page of depositing the meal, triggers the cabinet to open, and after the intelligent cabinet opens the corresponding cabinet grid, the knight puts the meal 1 into the cabinet grid. However, since the distribution destination addresses of the order 1 and the order 2 are only different between seat a and seat B, a rider can easily see that the distribution destination address of the order 2 is the building at a glance, the rider selects the order 2 by misoperation, the cabinet opening is triggered, and after the intelligent cabinet opens the corresponding cabinet grid, the rider puts the food 1 into the cabinet grid, so that the customer of the order 1 cannot normally receive the food taking notification and cannot complete the food taking, but the customer of the order 2 receives the food taking notification but does not have the food, thereby affecting the experience of the customer.

In order to solve the problems, the distance dimension of the order to be stored is identified and classified through distance verification, and the storage strong interception or weak interception is performed on the order which is far away, so that the distribution personnel can search the order to be stored in the target intelligent cabinet more quickly and accurately, the search time cost of the distribution personnel is reduced, the problem that the distribution personnel store and select wrong orders in the actual distribution process can be avoided to a certain extent, and the probability of storage errors is reduced. In the above example, since the distribution destination position of the order 2 is far from the target intelligent cabinet, the order 2 is subjected to storage interception processing and/or distance prompt in the order list to be displayed, or the order 2 and the order 1 are displayed in a partition manner in the order list to be displayed, and the order 1 is preferentially displayed, so that the wrong order selection when the rider stores the order is avoided.

The execution main body of the embodiment may be a server, that is, the server implements verification of the target order; the execution subject of this embodiment may also be the distribution end, that is, the distribution end locally implements verification on the target order.

Fig. 2 shows a flow chart of a storage verification method according to another embodiment of the present invention, as shown in fig. 2, the method includes the following steps:

step 201, receiving a storage request sent by a delivery end, and querying a to-be-stored order list corresponding to the delivery end.

In the embodiment of the present invention, the delivery side is a client side used by a delivery person, and may specifically be a storage application program, a storage applet, a service number for storage, a public number, or the like, which is not limited in this respect.

After a knight arrives at the intelligent cabinet site, the starting and distributing terminal initiates a storage request, and specifically, the starting and distributing terminal executes a triggering operation aiming at a target intelligent cabinet. In an alternative implementation scenario, the rider may trigger a save request by a code scan operation. And after receiving the storage request, inquiring a to-be-stored order list corresponding to the distribution terminal, wherein the to-be-stored order list is an order list which is distributed by the knight in the current state.

Step 202, determining the distance between the delivery destination of each to-be-stored order and the target intelligent cabinet according to the delivery destination position of each to-be-stored order in the to-be-stored order list and the position of the target intelligent cabinet.

Optionally, the storage request sent by the distribution end carries the equipment identifier of the target intelligent cabinet; or after the distribution end sends the storage request, the equipment identifier of the target intelligent cabinet is sent again; and then or inquiring the equipment identifier of the target intelligent cabinet according to the storage request. And after the equipment identification of the target intelligent cabinet is determined, acquiring the position of the target intelligent cabinet according to the equipment identification of the target intelligent cabinet. Optionally, the background system stores a correspondence between the device identifier of the target intelligent cabinet and the position of the target intelligent cabinet.

Further, a delivery destination position of each to-be-stored order in the to-be-stored order list is obtained, and the delivery destination position is a position of a delivery destination specified by an order user of the to-be-stored order when placing an order.

And further determining the distance between the delivery destination of each order to be stored and the target intelligent cabinet.

And 203, determining the type of the target intelligent cabinet, and inquiring at least one-stage distance check threshold corresponding to the type of the target intelligent cabinet according to the type of the target intelligent cabinet.

In the embodiment of the invention, the type of the intelligent cabinet is set in advance, and different distance check thresholds are set for different types of intelligent cabinets so as to meet different requirements of actual distribution scenes. For example, for a college, a campus, and the like, the preset distance check threshold is higher, for example, the preset distance check thresholds are 1000 meters and 500 meters, an order far from 1000 meters is a strong interception order, an order between 1000 meters and 500 meters is a weak interception order, and an order within 500 meters is a non-interception order. For an office building and an apartment scene, the preset distance check threshold is lower, and reference may be made to the above example, which is not described again. In the mode, the type setting is carried out on the intelligent cabinet in advance, the type of the intelligent cabinet is matched with the actual distribution scene, so that the distance verification matched with the scene is executed, the refined distance verification processing is realized, and the distance verification result is more in line with the requirement of the actual distribution scene.

As an alternative embodiment, this step can also be replaced by: identifying a distribution scene, and inquiring at least one-stage distance check threshold corresponding to the distribution scene according to the distribution scene; at least one level of distance checking threshold values corresponding to different distribution scenes are different.

If the type setting matched with the scene is not carried out on the intelligent cabinet in advance, the distribution scene can be identified. Alternatively, the distribution target location, the location of the target intelligent cabinet and the position of the knight may be analyzed, for example, a structured address text corresponding to the location is analyzed, and the distribution scene is identified according to the analysis result. Similarly, for the scenes such as colleges and universities and parks, the preset distance check threshold is higher, and for the scenes of office buildings and apartments, the preset distance check threshold is lower.

And 204, comparing the distance between the delivery destination of each order to be stored and the target intelligent cabinet with at least one stage of distance checking threshold value to obtain a distance checking result.

And comparing the distance between the delivery destination of each order to be stored and the target intelligent cabinet with at least one stage of distance check threshold value, and identifying and classifying the distance dimension of each order to be stored.

Optionally, identifying a first type of order to be distance-prompted in the order list of the to-be-stored items according to the distance between the delivery destination of each to-be-stored order and the target intelligent cabinet; and/or identifying a second type of order to be intercepted in the order list to be stored according to the distance between the delivery destination of each order to be stored and the target intelligent cabinet; and storing and intercepting the second type of orders.

In one particular example, the orders to be saved are categorized by distance check into weakly blocked orders (i.e., orders of the first type), strongly blocked orders (i.e., orders of the second type), and non-blocked orders. The distance between the strong interception order and the target intelligent cabinet is far than that between the weak interception order and the target intelligent cabinet, and the distance between the weak interception order and the target intelligent cabinet is far than that between the weak interception order and the target intelligent cabinet.

Taking setting of a secondary distance check threshold as an example, setting distance check thresholds of 300 meters and 100 meters respectively, identifying an order to be stored, which is spaced from a target intelligent cabinet by more than 300 meters, as a strong interception order, identifying an order to be stored, which is spaced from the target intelligent cabinet by more than 100 meters and is less than or equal to 300 meters, as a weak interception order, and identifying an order to be stored, which is spaced from the target intelligent cabinet by less than or equal to 100 meters, as a non-interception order through distance check.

As an implementation manner, the storing and intercepting process performed on the second type of order may specifically be: and removing the second type of order from the to-be-stored order list to obtain an order list to be displayed. Because the distance between the delivery destination of the second type of order and the target intelligent cabinet is far, and the probability that the article corresponding to the second type of order is placed in the target intelligent cabinet is low, the second type of order can be directly removed from the to-be-stored order list and displayed to a rider, and the rider is prevented from selecting the second type of order to select the wrong order.

As another embodiment, the storing and intercepting process for the second type of order may specifically be: and setting the storage control of the second type of order as unresponsive in the list to be displayed. Different from the above embodiments, the list to be displayed in the present embodiment still has the second type of order, but the storage control of the second type of order is set to be unresponsive, for example, the storage control of the second type of order is set to be gray during displaying, and does not respond to the clicking operation of the rider, so that the rider can be prevented from selecting the second type of order, which results in selecting an incorrect order.

As another implementation, the second type of order and the storage control thereof are normally displayed in the list to be displayed, but when it is monitored that the delivery personnel operates the storage control of the second type of order, storage interception processing is performed on the second type of order. Specifically, a storage blocking prompt can be displayed for the rider to prompt that the rider orders are far away from the current intelligent cabinet and the storage cannot be carried out.

Optionally, after performing distance check processing on each to-be-stored order in the to-be-stored order list, the method of this embodiment further includes: and determining the display sequence of each order to be displayed in the order list to be displayed according to the distance between the delivery destination of each order to be stored and the target intelligent cabinet. One implementation mode is that the display sequence of each order to be displayed is determined according to the sequence of the distance between the delivery destination of the order to be displayed and the target intelligent cabinet from near to far. When the order is displayed, the order with the shorter distance is preferentially displayed, so that the rider can conveniently view and select the order. The other implementation mode is that the order which is not intercepted is preferentially displayed, and the first type order and/or the second type order and the order which is not intercepted are displayed in a partitioning mode, wherein the order which is not intercepted is displayed according to the sequence from near to far of the distance between the delivery destination of the order and the target intelligent cabinet.

And step 205, sending an order list to be displayed to a distribution end according to the distance checking result.

Step 206, receiving a request for opening a counter for any target order in the list of orders to be displayed, which is sent by the delivery end.

After inquiring the to-be-displayed order list which is delivered by the rider, the to-be-displayed order list is displayed on a front end page of the delivery end, and the rider can select an order which needs to be stored at present in the page, wherein the order selected by the rider is called a target order.

Step 207, determining whether the target order is a first type order, if yes, executing step 209; if not, go to step 208.

In order to realize more refined verification processing, the distance prompt is particularly performed on the first type of order in the embodiment, so that the situation that the rider is disturbed by too much prompt is avoided.

And 208, triggering to send a cabinet opening instruction to the target intelligent cabinet according to the cabinet opening request.

And if the target order is judged not to be the first type of order, triggering to send a cabinet opening instruction to the target intelligent cabinet so as to control the target intelligent cabinet to be opened for storing the goods by the knight.

Optionally, in step 207, it may further be determined whether the target order is a second type order, and in case the target order is not the first type order or the second type order, step 208 is executed. Namely, if the target order selected by the rider is a non-interception order, directly triggering to send a cabinet opening instruction to the target intelligent cabinet so as to control the target intelligent cabinet to open the cabinet for the rider to store the order. And if the target order selected by the rider is a second type of order, storing and intercepting the second type of order. Specifically, a storage blocking prompt can be displayed for the rider to prompt that the rider orders are far away from the current intelligent cabinet and the storage cannot be carried out.

And step 209, sending distance checking prompt information to the distribution end.

As one implementation, the present embodiment handles the first type of order in a weakly-intercepted manner, i.e., distance-prompting the rider when the rider selects such an order. Specifically, the rider is directly reminded that the selected order is far from the current intelligent cabinet, and the rider is asked to confirm whether the selected order is matched with the target intelligent cabinet again.

As another implementation manner, before sending the distance checking prompt message, the embodiment further includes: the method comprises the following steps of carrying out text similarity verification on an address text of a target intelligent cabinet and a delivery destination address text of a target order, and specifically comprises the following steps: acquiring first address information corresponding to a target intelligent cabinet and second address information corresponding to a target order, and checking text similarity of the first address information and the second address information; the sending of the distance checking prompt information to the distribution end specifically includes: and sending distance checking prompt information to the distribution end according to the checking result of the text similarity.

The first address information is specifically an address of the target intelligent cabinet, for example, an address of a building where the target intelligent cabinet is located, and the second address information is obtained based on a delivery destination address of the target order, wherein the delivery destination address is a delivery address input by the customer. Typically, the delivery address of the customer is composed of two parts, for example: * City, building, and the part before the plus sign is the structured address. In this embodiment, the structured address in the delivery destination address of the target order is extracted, and the structured address is matched and checked with the address of the intelligent cabinet.

In the embodiment, the target order is verified by calculating the address text similarity of the first address information and the second address information. Specifically, a similarity threshold is preset, the similarity of the address text is compared with the similarity threshold, and if the similarity is greater than or equal to the similarity threshold, the verification is passed; if the similarity is smaller than the similarity threshold, the verification is not passed.

Optionally, whether distance check prompt information is sent to the distribution end or not is determined according to different text similarity check results. And if the verification result of the text similarity is that the verification fails, sending distance verification prompt information to the distribution end to prompt distribution personnel to confirm whether the order is selected wrongly again. And if the verification result of the text similarity is that the verification is passed, sending distance verification prompt information to the distribution end is not needed, responding to the cabinet opening request, triggering to send a cabinet opening instruction to the target intelligent cabinet, and controlling the target intelligent cabinet to open the cabinet. The method further determines whether the first type of order is processed in a weak interception mode or not by using the verification result of the text similarity, and further improves the accuracy of order confirmation through the verification of the address text similarity.

Optionally, different distance checking prompt information is sent to the distribution end according to different checking results of the text similarity. If the verification result of the text similarity is that the verification is passed, sending distance verification prompt information containing the order number of the target order to a distribution end, and strongly prompting the order number so as to prompt a knight to confirm the order number again; and if the verification result of the text similarity is that the verification is not passed, sending distance verification prompt information containing the first address information to the distribution end, and strongly prompting the address of the target intelligent cabinet so as to prompt a rider to confirm whether the selected order is matched with the target intelligent cabinet again.

Step 210, receiving a confirmation opening request aiming at the target order sent by the distribution end, and triggering to send an opening instruction to the target intelligent cabinet according to the confirmation opening request.

After the distance verification prompt information is sent to the distribution end, the distribution end can display the distance verification prompt information to the knight in the forms of popup windows, page skipping, voice reminding and the like so as to be used for the knight to open the cabinet and confirm again. After the knight checks the distance checking prompt information, if the selection of the target order is confirmed to be correct, the confirmation opening operation can be triggered, and the delivery end initiates a confirmation opening request according to the confirmation opening operation of the knight. Optionally, the knight may trigger the confirmation of the locker opening operation through a confirmation control displayed by a pop-up window or a page, or through a voice feedback mode, and the triggering mode is not particularly limited in the present invention.

Optionally, after the knight checks the distance checking prompt message, the knight finds that the target order is selected incorrectly, and may trigger an order reselection operation, and the knight may trigger the order reselection operation through a reselection control displayed on a pop-up window or a page, or in a voice feedback manner, and the triggering manner is not particularly limited in the present invention. After the rider triggers the order reselection operation, the rider returns to the save page, the rider reselects the target order, and the method jumps back to step 206.

In another embodiment of the invention, if the verification result of the text similarity is that the verification fails, the distribution end further requires the knight to input the order number of the food to be stored in the intelligent cabinet at present while showing the distance verification prompt message to the knight. For example, when the pop-up window or the page displays the distance checking prompt information, an order number input control is also displayed, a knight inputs an order number in the order number input control, or the order number is input in a voice feedback mode, so that the distribution end sends a confirmation opening request carrying the input order number. Then, comparing the input order number with the order number of the target order, and if the input order number is consistent with the order number of the target order, triggering to send a cabinet opening instruction to the target intelligent cabinet; and if not, sending order error prompt information to the distribution end. In the method, the order number is further required to be manually input by the rider, and the system confirms whether the order number of the rider waiting part is consistent with the order number of the target order selected by the rider again, so that the accuracy of order confirmation is improved.

In the process of implementing the invention, the inventor finds that in an actual distribution scene, a rider is preferentially used to look up merchant information in order detail information when selecting an order, then observes merchant information printed by an actual meal outer packaging bag, determines which order is selected by comparing the merchant information, and ignores a comparison order number. Therefore, if a knight distributes more than two orders of the same merchant at the same time, the problem of mispicking orders is more likely to occur. In view of this, the embodiments of the present invention may specifically identify orders belonging to the same merchant in the order list to be displayed. In order to further strongly prompt orders of the same merchant, when the storage page displays the list of the orders to be displayed, additional prompt information is added to the orders belonging to the same merchant, for example, a prompt bar is added to prompt that a plurality of orders belong to the same merchant, a knight is reminded not to confuse the two orders and the meals corresponding to the two orders, and order wrong selection or wrong placement of the meals is avoided.

Further, if the distribution personnel selects one of the orders belonging to the same merchant as the target order, the embodiment of the invention can perform address text similarity check for the situation. That is, even if the target order selected by the delivery person is not the first type of order, but belongs to one of the orders of the same merchant, the text similarity check can be performed on the address text of the target intelligent cabinet and the delivery destination address text of the target order, and the specific method is as follows: acquiring first address information corresponding to a target intelligent cabinet and second address information corresponding to a target order, and checking text similarity of the first address information and the second address information; and sending distance checking prompt information to the distribution end according to the checking result of the text similarity.

In the embodiment of the invention, after the distribution personnel selects the target order, whether the target order is one of a plurality of orders belonging to the same commercial tenant in the order list to be displayed is judged, if yes, the target order is verified, specifically, the text similarity of the first address information corresponding to the target intelligent cabinet and the second address information corresponding to the target order is verified, and the distance verification prompt information is sent to the distribution end according to the verification result of the text similarity. In the embodiment, on the basis of considering that when a knight simultaneously delivers a plurality of orders of the same merchant, the knight pays more attention to the information of the comparison merchant, but ignores the information of the comparison order number, the problem of selecting the wrong order is more likely to occur, so that the address verification is particularly carried out on the orders of the same merchant, the problem of storing and selecting the wrong order by the delivery personnel in the actual delivery process is effectively avoided, and the probability of errors in storing is greatly reduced.

Fig. 3 shows a flow chart of a storage verification method according to another embodiment of the present invention, and as shown in fig. 3, the method includes the following steps:

step 301, monitoring a storage operation, sending a storage request to a server, so that the server queries a to-be-stored order list corresponding to a distribution end, determining a distance between a distribution destination of each to-be-stored order and a target intelligent cabinet according to a distribution destination position of each to-be-stored order in the to-be-stored order list and a position of the target intelligent cabinet, and performing distance verification processing on each to-be-stored order in the to-be-stored order list to obtain an to-be-displayed order list.

The execution main body in the embodiment of the present invention may be a distribution end, and the distribution end is a client used by a distribution worker, and specifically may be a storage application program, a storage applet, a service number or a public number for storing a storage, and the present invention is not limited to this.

After the knight arrives at the intelligent cabinet site, the distribution end is started to execute the storage operation, and optionally, the storage operation can be a code scanning operation. When the distribution end monitors the storage operation, a storage request is sent to the server end so as to request the server end to inquire a to-be-stored order list corresponding to the distribution end, wherein the to-be-stored order list is an order list which is distributed by a knight in the current state. The server side determines the distance between the delivery destination of each to-be-stored order and the target intelligent cabinet according to the delivery destination position of each to-be-stored order in the to-be-stored order list and the position of the target intelligent cabinet, and performs distance verification processing on each to-be-stored order in the to-be-stored order list to obtain the to-be-displayed order list.

Step 302, receiving and displaying the list of the orders to be displayed returned by the server.

And responding to the storage operation, the distribution end displays the list of the orders to be displayed so that the knight can select the target orders needing to be stored currently and execute the operation of opening the cabinet.

Optionally, after the step 302, the present embodiment may further include:

step 303, monitoring the operation of opening the cabinet for any target order in the list of the orders to be displayed, and sending a request for opening the cabinet to the server.

When the distribution end monitors the cabinet opening operation aiming at any target order in the list of the orders to be displayed, a cabinet opening request is sent to the server end so as to request the server end to trigger and control the target intelligent cabinet to open the cabinet.

And step 304, receiving and displaying the distance checking prompt information returned by the server.

Optionally, in the case that the target order is a first type order, executing step 304; alternatively, step 304 is performed in the case where the target order is the same merchant order.

And 305, monitoring the confirmation of the opening of the cabinet aiming at the target order, and sending a confirmation of the opening of the cabinet request to the server.

And when the distribution end monitors the operation of confirming the cabinet opening of the target order, sending a request of confirming the cabinet opening to the server end so as to request the server end to trigger and control the target intelligent cabinet to open the cabinet again.

Fig. 4 shows an interface schematic diagram of a storage page according to an embodiment of the present invention, and as shown in fig. 4, the storage page displays an order list to be displayed, where each order is displayed in the form of an order card, and the order card displays order detail information, including but not limited to: order number, merchant information, customer information, delivery destination address; the order card also shows a locker operation control (storage control), and the rider clicks the locker operation control to trigger the locker operation of the target order.

And aiming at the orders belonging to the same commercial tenant in the order list to be displayed, displaying the order detail information of the orders and simultaneously displaying the prompt information of the orders belonging to the same commercial tenant. As shown in fig. 4, the order 11 and the order 13 belong to the same merchant, and since the orders of the same merchant are easier to be confused when the knight stores the parts, a prompt bar is added on the order card of the same merchant for displaying a corresponding prompt document, for example, the prompt document is specifically "how many orders are available for the same merchant, please carefully check for restocking". By adding the prompt bar, the prompt case is revealed in the storage page, and a certain prompt effect is achieved.

Considering that a knight is more concerned with comparing merchant information and neglects comparing order number information and/or customer information when checking an order, further, partial order detail information of the same merchant order is displayed in an order card in a preset display mode, wherein the partial order detail information comprises: order number and/or customer information. Optionally, part of the order detail information is displayed in a color different from other information, or in a larger word size, so as to remind a knight of paying attention to the order number information and/or the customer information and avoid order mistuning as much as possible.

Even if orders from the same merchant have been prompted in the deposit page in the manner described above, in some cases, there is still a possibility of the order being mistaken. Therefore, if the knight selects to execute the locker opening operation with the order of the same merchant (namely, the target order is the order of the same merchant), the target order is verified by adopting the address text similarity verification method described in the above embodiment of the present invention, and the distribution end receives and displays the distance verification prompt information returned by the service end.

Referring to fig. 4, the order 11 and the order 13 belong to the same merchant, and when the rider prepares to deposit the meal corresponding to the order 11, the rider may first see that the merchant displayed in the detail information of the order 13 is consistent with the merchant printed on the meal outer package held in the rider, and directly click the opening operation control of the order 13 without carefully viewing the detail information of the order 11. And then, the interface of the dispensing end pops up a pop-up window 21 for prompting, and distance checking prompt information, a confirmation error-free control and a reselection control are displayed in the pop-up window 21 to prompt a rider to confirm whether the selected order is matched with the target intelligent cabinet or not again.

Further, in the embodiment of the present invention, before the storage page is displayed, distance check processing is performed on each to-be-stored order in the to-be-stored order list. And determining the display sequence of each order to be stored according to the distance checking result, and displaying the list of the order to be displayed. For example, the display sequence of each order to be displayed is determined according to the sequence of the distance between each order to be displayed and the target intelligent cabinet from near to far, and the order to be stored with the closer distance is preferentially displayed, so that the priority selection of a rider is facilitated, the interface interaction efficiency is improved, and the probability of misoperation is further reduced. Referring to fig. 4, the display sequence of each order card is determined according to the distance between the order and the target intelligent cabinet.

As mentioned above, according to the embodiment of the present invention, the distance dimension of each to-be-stored order may be identified and categorized according to the distance check result. In FIG. 4, orders 11, 12, 13 are identified as non-blocked orders, order 14 is identified as a weakly blocked order (i.e., a first type of order), and order 15 is identified as a strongly blocked order (i.e., a second type of order).

The embodiment further comprises: and displaying the first type of orders and/or the second type of orders to be intercepted, which are prompted by the distance, in a partitioning manner, wherein the first type of orders and/or the second type of orders are obtained according to the comparison result of the distance between each order to be displayed and the target intelligent cabinet and at least one stage of distance checking threshold value. Specifically, the first type of order and the second type of order are put into a bottom area for display, and the display document is that the order is sent to a far distance and possibly not sent to the far distance. The first type of order and the second type of order are lower in display priority, so that a rider can focus more attention on the orders ranked in the front, and the probability of wrong selection of the orders is reduced.

And if the knight selects the first type of order as a target order, receiving and displaying distance checking prompt information returned by the server. For example, a knight clicks the opening operation control of the order 14, the interface of the dispensing end pops up the pop-up window 22 for distance prompt, distance verification prompt information is displayed in the pop-up window 22, and the error-free confirmation control and the reselection control are used for reminding the knight that the selected order is far away from the current intelligent cabinet, and asking the knight to confirm whether the selected order is matched with the target intelligent cabinet again.

For the second type of order 15, the present embodiment processes the second type of order by adopting a strong interception manner, and sets the storage control of the second type of order 15 as unresponsive, for example, sets the opening operation control of the order 15 to be gray, so as to avoid misoperation of a knight.

Optionally, distance checking prompt information including the order number and/or the first address information of the target order returned by the server is received and displayed. Specifically, the displayed distance check prompt information may be different according to different text similarity check results. If the verification result of the text similarity is that the verification is passed, the distance verification prompt information comprises the order number, and the strong prompt is carried out on the order number, so that the rider is prompted to confirm the order number again conveniently; if the verification result of the text similarity is that the verification is not passed, the distance verification prompt information comprises the address of the target intelligent cabinet, and the strong prompt is carried out on the address of the target intelligent cabinet, so that a rider is prompted to confirm whether the selected order is matched with the target intelligent cabinet again.

After a knight checks the distance checking prompt information, if the selection of the target order is confirmed to be correct, the control for confirming the correct order can be clicked to trigger the operation for confirming the cabinet opening, the distribution end monitors the operation for confirming the cabinet opening of the target order, and a request for confirming the cabinet opening is sent to the server end. If the rider finds that the target order was selected incorrectly, the re-selection control can be clicked to trigger an order re-selection operation, the pop-up window is closed and the storage page is returned to, and the rider re-selects the target order.

In another embodiment of the invention, if the verification result of the text similarity is that the verification fails, the distribution end further requires the knight to input the order number of the food to be stored in the intelligent cabinet at present while displaying the distance verification prompt message to the knight. For example, while the popup window 21 or 22 of fig. 4 shows the distance check prompt information, an order number input control is also shown, requesting the rider to input an order number in the order number input control. After the order number input by the knight is obtained, a confirmation cabinet opening request carrying the input order number is sent to the server, so that the server can compare the input order number with the order number of the target order; and receiving order error prompt information fed back by the server under the condition that the input order number is not consistent with the order number of the target order through comparison.

According to the storage verification method provided by the embodiment of the invention, after the distribution personnel trigger the storage operation, the distance verification is carried out on the orders to be stored, and under the condition that the distribution personnel select the orders with longer distance, a corresponding prompt can be given, so that the distribution personnel can have an opportunity to confirm whether the orders are selected wrongly again, the problem that the distribution personnel store and select the wrong orders in the actual distribution process is effectively avoided, and the probability of errors in storage is greatly reduced. Optionally, in this embodiment, an additional prompt is performed on the orders belonging to the same merchant in the storage page, so that order mistuning can be avoided to a certain extent. In addition, according to the distance checking result, the display sequence of each to-be-stored order is determined, orders with longer display distances are distinguished, orders with shorter display distances are displayed preferentially, a rider can select preferentially, the interface interaction efficiency is improved, and the probability of misoperation is further reduced. If the distribution personnel select the weak interception order, distance prompt is carried out, and order wrong selection is avoided.

Fig. 5 shows a flow chart of a storage verification method according to another embodiment of the present invention, as shown in fig. 5, the method includes the following steps:

step 501, after monitoring a storage operation, a distribution end sends a storage request to a server end;

step 502, the server side inquires a to-be-stored order list corresponding to the distribution side according to the storage request;

step 503, the server determines the distance between the delivery destination of each to-be-stored order and the target intelligent cabinet according to the delivery destination position of each to-be-stored order in the to-be-stored order list and the position of the target intelligent cabinet;

step 504, the server side performs distance check processing on each to-be-stored order in the to-be-stored order list;

step 505, the server sends an order list to be displayed to the distribution end according to the distance checking result;

step 506, the distribution end receives and displays the list of the orders to be displayed.

In this embodiment, the distribution end and the service end interact to implement the part verification, and reference may be made to the description of the above embodiments for respective processing manners of the distribution end and the service end, which is not described again.

Fig. 6 is a schematic structural diagram of a storage verification apparatus according to an embodiment of the present invention. As shown in fig. 6, the apparatus includes:

the query module 601 is configured to receive a storage request sent by a delivery end, and query a to-be-stored order list corresponding to the delivery end;

a distance determining module 602, configured to determine a distance between a delivery destination of each to-be-stored order and the target intelligent cabinet according to a delivery destination position of each to-be-stored order in the to-be-stored order list and a position of the target intelligent cabinet;

a distance checking module 603, configured to perform distance checking on each to-be-stored order in the to-be-stored order list;

a sending module 604, configured to send an order list to be displayed to the distribution end according to the distance verification result.

Optionally, the distance checking module is further configured to: determining the type of the target intelligent cabinet; and according to the type of the target intelligent cabinet, performing distance verification processing on each order to be stored in the order to be stored list.

Optionally, the distance checking module is further configured to:

inquiring at least one level of distance checking threshold value corresponding to the type of the target intelligent cabinet according to the type of the target intelligent cabinet; at least one level of distance checking threshold values corresponding to different types of target intelligent cabinets are different;

and comparing the distance between the delivery destination of each order to be stored and the target intelligent cabinet with the at least one-stage distance check threshold value to obtain a distance check result.

Optionally, the distance checking module is further configured to: identifying a delivery scene; and according to the distribution scene, carrying out distance verification processing on each order to be stored in the order to be stored list.

Optionally, the distance checking module is further configured to:

inquiring at least one level of distance checking threshold corresponding to the distribution scene according to the distribution scene; at least one level of distance checking threshold values corresponding to different distribution scenes are different;

and comparing the distance between the delivery destination of each order to be stored and the target intelligent cabinet with the at least one-stage distance check threshold value to obtain a distance check result.

Optionally, the query module is further configured to: receiving a storage request sent by a distribution end aiming at the triggering operation of a target intelligent cabinet; and acquiring the position of the target intelligent cabinet.

Optionally, the distance checking module is further configured to: and identifying the first type of orders prompted by the distance to be stored in the order list according to the distance between the delivery destination of each order to be stored and the target intelligent cabinet.

Optionally, the distance checking module is further configured to:

identifying second-class orders to be intercepted in the order list to be stored according to the distance between the delivery destination of each order to be stored and a target intelligent cabinet;

and storing and intercepting the second type of orders.

Optionally, the distance checking module is further configured to: and removing the second type of order from the to-be-stored order list to obtain the to-be-displayed order list.

Optionally, the distance checking module is further configured to: and setting the storage control of the second type of order as unresponsive in the list to be displayed.

Optionally, the distance checking module is further configured to: and determining the display sequence of each order to be displayed in the order list to be displayed according to the distance between the delivery destination of each order to be stored and the target intelligent cabinet.

Optionally, the apparatus further comprises: the system comprises a cabinet opening processing module, a distribution end and a display module, wherein the cabinet opening processing module is used for receiving a cabinet opening request which is sent by the distribution end and aims at any target order in an order list to be displayed; judging whether the target order is the first type order or not; and if so, sending distance checking prompt information to the distribution end.

Optionally, the cabinet opening processing module is further configured to: and if the target order is judged not to be the first type order or the second type order, triggering to send a cabinet opening instruction to the target intelligent cabinet according to the cabinet opening request.

Optionally, the cabinet opening processing module is further configured to:

acquiring first address information corresponding to a target intelligent cabinet and second address information corresponding to the target order, and checking text similarity of the first address information and the second address information;

and sending distance checking prompt information to the distribution end according to the checking result of the text similarity.

Optionally, the cabinet opening processing module is further configured to:

if the verification result of the text similarity is that the verification is passed, sending distance verification prompt information containing the order number of the target order to the distribution end;

and/or if the verification result of the text similarity is that the verification is not passed, sending distance verification prompt information containing the first address information to the distribution end.

Optionally, the cabinet opening processing module is further configured to:

receiving a confirmation opening request aiming at a target order sent by a distribution end;

and triggering to send a cabinet opening instruction to the target intelligent cabinet according to the cabinet opening confirmation request.

Optionally, the cabinet opening processing module is further configured to:

receiving a confirmation opening request which is sent by a distribution end and carries an input order number;

comparing the input order number with the order number of the target order, and if the input order number is consistent with the order number of the target order, triggering to send a cabinet opening instruction to the target intelligent cabinet; and if not, sending order error prompt information to the distribution end.

The functional description of each module refers to the corresponding description in the method embodiment, and is not repeated herein.

According to the storage checking device provided by the embodiment of the invention, after the distribution end sends the storage request, the to-be-stored order list corresponding to the distribution end is inquired, the distance between the distribution destination of each to-be-stored order and the target intelligent cabinet is determined, then the distance checking processing is carried out on each to-be-stored order in the to-be-stored order list, and the to-be-displayed order list is sent to the distribution end according to the distance checking result. By utilizing the embodiment of the invention, the list of the orders to be displayed provided for the distribution terminal is related to the distance check result, so that the distribution personnel can more quickly and accurately search the orders to be stored in the target intelligent cabinet, the search time cost of the distribution personnel is reduced, the problem that the distribution personnel stores and selects wrong orders in the actual distribution process can be avoided to a certain extent, and the probability of errors in storing the orders is reduced.

Fig. 7 shows a schematic structural diagram of a storage checking apparatus according to another embodiment of the present invention. As shown in fig. 7, the apparatus includes:

the monitoring module 701 is configured to monitor a storage operation, send a storage request to a server, so that the server queries a to-be-stored order list corresponding to a distribution end, determine a distance between a distribution destination of each to-be-stored order and a target intelligent cabinet according to a distribution destination position of each to-be-stored order in the to-be-stored order list and a position of the target intelligent cabinet, and perform distance verification processing on each to-be-stored order in the to-be-stored order list to obtain an to-be-displayed order list;

and the order display module 702 is configured to receive and display the list of the orders to be displayed, which is returned by the server.

Optionally, the monitoring module is further configured to: and monitoring the opening operation aiming at any target order in the order list to be displayed, and sending a request for opening the cabinet to the server side.

Optionally, the apparatus further comprises: and the prompting module is used for receiving and displaying the distance checking prompting information returned by the server under the condition that the target order is the first type of order.

Optionally, the prompt module is further configured to: and receiving and displaying distance checking prompt information which is returned by the server and contains the order number of the target order and/or the first address information.

Optionally, the monitoring module is further configured to: and monitoring the operation of confirming the cabinet opening of the target order, and sending a request of confirming the cabinet opening to the server side.

Optionally, the monitoring module is further configured to: acquiring an input order number, and sending a confirmation cabinet opening request carrying the input order number to the server so that the server can compare the input order number with the order number of the target order;

the prompt module is further configured to: and receiving order error prompt information fed back by the server under the condition that the input order number is not consistent with the order number of the target order through comparison.

Optionally, the order presentation module is further configured to: and displaying the list of the orders to be displayed according to a display sequence determined by the distance between the delivery destination of each order to be displayed and the target intelligent cabinet.

Optionally, the order display module is further configured to: and displaying the first type of orders and/or the second type of orders to be intercepted, which are subjected to distance prompt, in a partitioning manner, wherein the first type of orders and/or the second type of orders are obtained according to the comparison result of the distance between the delivery destination of each order to be stored and the target intelligent cabinet and at least one stage of distance check threshold value.

Optionally, the order display module is further configured to: and setting the storage control of the second type order as unresponsive.

The functional descriptions of the above modules refer to the corresponding descriptions in the method embodiments, and are not described herein again.

According to the storage checking device provided by the embodiment of the invention, after the distribution personnel triggers the storage operation, the distance checking is carried out on the orders to be stored, and under the condition that the distribution personnel selects the orders with longer distance, corresponding prompt can be given, so that the distribution personnel can have an opportunity to confirm whether the orders are selected wrongly again, the problem that the distribution personnel store and select wrong orders in the actual distribution process is effectively avoided, and the probability of errors in storage is greatly reduced.

Fig. 8 is a schematic structural diagram of a storage verification system according to an embodiment of the present invention. As shown in fig. 8, the system includes:

the distribution end 801 is used for monitoring storage operation and sending a storage request to the server; receiving and displaying an order list to be displayed returned by the server;

the server 802 is configured to receive a delivery request sent by a delivery end, and query a to-be-stored order list corresponding to the delivery end; determining the distance between the delivery destination of each order to be stored and the target intelligent cabinet according to the delivery destination position of each order to be stored in the list of the order to be stored and the position of the target intelligent cabinet; carrying out distance check processing on each order to be stored in the order list to be stored; and sending an order list to be displayed to the distribution end according to the distance checking result.

In the system, the delivery side and the service side interact to implement the part verification, and the respective processing modes of the delivery side and the service side can be referred to the description of the above embodiments and are not described again.

The embodiment of the invention also provides a nonvolatile computer storage medium, wherein the computer storage medium stores at least one executable instruction, and the executable instruction can execute the storage verification method in any method embodiment.

Fig. 9 is a schematic structural diagram of a computing device according to an embodiment of the present invention, and a specific embodiment of the present invention does not limit a specific implementation of the computing device.

As shown in fig. 9, the computing device may include: a processor (processor) 902, a communication Interface 904, a memory 906, and a communication bus 908.

Wherein:

the processor 902, communication interface 904, and memory 906 communicate with one another via a communication bus 908.

A communication interface 904 for communicating with network elements of other devices, such as clients or other servers.

The processor 902 is configured to execute the program 910, and may specifically execute the relevant steps in the above embodiment of the storage verification method.

In particular, the program 910 may include program code that includes computer operating instructions.

The processor 902 may be a central processing unit CPU, or an Application Specific Integrated Circuit ASIC (Application Specific Integrated Circuit), or one or more Integrated circuits configured to implement embodiments of the present invention. The computing device includes one or more processors, which may be the same type of processor, such as one or more CPUs; or may be different types of processors such as one or more CPUs and one or more ASICs.

The memory 906 is used for storing the program 910. The memory 906 may comprise high-speed RAM memory, and may also include non-volatile memory (non-volatile memory), such as at least one disk memory.

The program 910 may be specifically configured to enable the processor 902 to execute the storage verification method in any of the method embodiments described above. For specific implementation of each step in the program 910, reference may be made to corresponding steps and corresponding descriptions in units in the foregoing embodiment of the storage verification method, which are not described herein again. It can be clearly understood by those skilled in the art that, for convenience and simplicity of description, the specific working processes of the above-described devices and modules may refer to the corresponding process descriptions in the foregoing method embodiments, and are not described herein again.

The algorithms or displays presented herein are not inherently related to any particular computer, virtual system, or other apparatus. Various general purpose systems may also be used with the teachings herein. The required structure for constructing such a system will be apparent from the description above. In addition, embodiments of the present invention are not directed to any particular programming language. It is appreciated that a variety of programming languages may be used to implement the teachings of embodiments of the present invention as described herein, and any descriptions of specific languages are provided above to disclose a preferred embodiment of the invention.

In the description provided herein, numerous specific details are set forth. It is understood, however, that embodiments of the invention may be practiced without these specific details. In some instances, well-known methods, structures and techniques have not been shown in detail in order not to obscure an understanding of this description.

Similarly, it should be appreciated that in the foregoing description of exemplary embodiments of the invention, various features of the embodiments of the invention are sometimes grouped together in a single embodiment, figure, or description thereof for the purpose of streamlining the disclosure and aiding in the understanding of one or more of the various inventive aspects. However, the disclosed method should not be interpreted as reflecting an intention that: that is, the claimed embodiments of the invention require more features than are expressly recited in each claim. Rather, as the following claims reflect, inventive aspects lie in less than all features of a single foregoing disclosed embodiment. Thus, the claims following the detailed description are hereby expressly incorporated into this detailed description, with each claim standing on its own as a separate embodiment of this invention.

Those skilled in the art will appreciate that the modules in the devices in an embodiment may be adaptively changed and arranged in one or more devices different from the embodiment. The modules or units or components of the embodiments may be combined into one module or unit or component, and furthermore they may be divided into a plurality of sub-modules or sub-units or sub-components. All of the features disclosed in this specification (including any accompanying claims, abstract and drawings), and all of the processes or elements of any method or apparatus so disclosed, may be combined in any combination, except combinations where at least some of such features and/or processes or elements are mutually exclusive. Each feature disclosed in this specification (including any accompanying claims, abstract and drawings) may be replaced by alternative features serving the same, equivalent or similar purpose, unless expressly stated otherwise.

Furthermore, those skilled in the art will appreciate that while some embodiments herein include some features included in other embodiments, rather than other features, combinations of features of different embodiments are meant to be within the scope of the invention and form different embodiments. For example, in the following claims, any of the claimed embodiments may be used in any combination.

The various component embodiments of the invention may be implemented in hardware, or in software modules running on one or more processors, or in a combination thereof. Those skilled in the art will appreciate that a microprocessor or Digital Signal Processor (DSP) may be used in practice to implement some or all of the functionality of some or all of the components according to embodiments of the present invention. Embodiments of the invention may also be implemented as apparatus or device programs (e.g., computer programs and computer program products) for performing a portion or all of the methods described herein. Such programs implementing embodiments of the present invention may be stored on computer-readable media or may be in the form of one or more signals. Such a signal may be downloaded from an internet website or provided on a carrier signal or in any other form.

It should be noted that the above-mentioned embodiments illustrate rather than limit the invention, and that those skilled in the art will be able to design alternative embodiments without departing from the scope of the appended claims. In the claims, any reference signs placed between parentheses shall not be construed as limiting the claim. The word "comprising" does not exclude the presence of elements or steps not listed in a claim. The word "a" or "an" preceding an element does not exclude the presence of a plurality of such elements. Embodiments of the invention may be implemented by means of hardware comprising several distinct elements, and by means of a suitably programmed computer. In the unit claims enumerating several means, several of these means may be embodied by one and the same item of hardware. The usage of the words first, second and third, etcetera do not indicate any ordering. These words may be interpreted as names. The steps in the above embodiments should not be construed as limiting the order of execution unless specified otherwise.

Claims (10)

1. A storage verification method comprises the following steps:

receiving a storage request sent by a distribution end, and inquiring a list of orders to be stored corresponding to the distribution end;

determining the distance between the delivery destination of each order to be stored and the target intelligent cabinet according to the delivery destination position of each order to be stored in the list of the orders to be stored and the position of the target intelligent cabinet;

carrying out distance check processing on each order to be stored in the order list to be stored;

and sending an order list to be displayed to the distribution end according to the distance checking result.

2. The method according to claim 1, wherein the performing distance check processing on each of the to-be-stored orders in the to-be-stored order list further comprises:

determining the type of the target intelligent cabinet;

and according to the type of the target intelligent cabinet, carrying out distance verification processing on each order to be stored in the order to be stored list.

3. The method according to claim 2, wherein the performing distance check processing on each to-be-stored order in the to-be-stored order list according to the type of the target intelligent cabinet further comprises:

inquiring at least one level of distance checking threshold value corresponding to the type of the target intelligent cabinet according to the type of the target intelligent cabinet; at least one level of distance checking threshold values corresponding to different types of target intelligent cabinets are different;

and comparing the distance between the delivery destination of each order to be stored and the target intelligent cabinet with the at least one-stage distance check threshold value to obtain a distance check result.

4. A storage verification method comprises the following steps:

monitoring storage operation, sending a storage request to a server, allowing the server to inquire a to-be-stored order list corresponding to a distribution end, determining a distance between a distribution destination of each to-be-stored order and a target intelligent cabinet according to a distribution destination position of each to-be-stored order in the to-be-stored order list and a position of the target intelligent cabinet, and performing distance verification processing on each to-be-stored order in the to-be-stored order list to obtain an to-be-displayed order list;

and receiving and displaying the list of the orders to be displayed returned by the server.

5. A storage verification method comprises the following steps:

the method comprises the steps that after a distribution end monitors storage operation, a storage request is sent to a server end;

the server side inquires a to-be-stored order list corresponding to the distribution side according to the storage request;

the server side determines the distance between the delivery destination of each order to be stored and the target intelligent cabinet according to the delivery destination position of each order to be stored in the order to be stored list and the position of the target intelligent cabinet;

the server side carries out distance check processing on each order to be stored in the order to be stored list;

the server side sends an order list to be displayed to the distribution side according to the distance checking result;

and the distribution terminal receives and displays the list of the orders to be displayed.

6. A deposit verification device comprising:

the query module is used for receiving a storage request sent by the distribution end and querying a to-be-stored order list corresponding to the distribution end;

the distance determining module is used for determining the distance between the delivery destination of each order to be stored and the target intelligent cabinet according to the delivery destination position of each order to be stored in the order to be stored list and the position of the target intelligent cabinet;

the distance checking module is used for carrying out distance checking processing on each order to be stored in the order to be stored list;

and the sending module is used for sending the order list to be displayed to the distribution end according to the distance checking result.

7. A deposit verification device comprising:

the monitoring module is used for monitoring storage operation, sending a storage request to a server, allowing the server to inquire a to-be-stored order list corresponding to a distribution end, determining a distance between a distribution destination of each to-be-stored order and a target intelligent cabinet according to a distribution destination position of each to-be-stored order in the to-be-stored order list and a position of the target intelligent cabinet, and performing distance verification processing on each to-be-stored order in the to-be-stored order list to obtain an to-be-displayed order list;

and the order display module is used for receiving and displaying the list of the orders to be displayed returned by the server.

8. A inventory verification system, comprising:

the distribution end is used for monitoring storage operation and sending a storage request to the server end; receiving and displaying an order list to be displayed returned by the server;

the server is used for receiving the storage request sent by the distribution end and inquiring a to-be-stored order list corresponding to the distribution end; determining the distance between the delivery destination of each order to be stored and the target intelligent cabinet according to the delivery destination position of each order to be stored in the list of the orders to be stored and the position of the target intelligent cabinet; carrying out distance check processing on each order to be stored in the order list to be stored; and sending an order list to be displayed to the distribution end according to the distance checking result.

9. A computing device, comprising: the system comprises a processor, a memory, a communication interface and a communication bus, wherein the processor, the memory and the communication interface are communicated with each other through the communication bus;

the memory is used for storing at least one executable instruction, and the executable instruction causes the processor to execute the operation corresponding to the storage verification method according to any one of claims 1-5.

10. A computer storage medium having at least one executable instruction stored therein, the executable instruction causing a processor to perform operations corresponding to the storage verification method of any one of claims 1-5.

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